会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 4. 发明专利
    • Burning device
    • 刺激装置
    • JPS59125316A
    • 1984-07-19
    • JP23024382
    • 1982-12-29
    • Netsushii Kogyo Kk
    • IKEDA TOSHIO
    • F23G5/44F23G5/46F23G5/50F23J15/02F23L9/00
    • F23L9/00F23J15/027
    • PURPOSE:To control ignition and the combustion condition of a combustible material charged in a furnace and to normally obtain the constant quantity of heat, by controlling the energizing order of air feed pipes. CONSTITUTION:A space 19 is provided between an enclosed casing 14, a furnace 16 and a cyclone device 18, and is filled with water through an introducing port 20. Thereafter, a combustible material is charged in a first combustion chamber 40 through a combustion material charge inlet 46. The air, introduced to the ignited combustible material positioned at the upper part with the aid of a blower 72, is discharged in a furnace 16 from a blast plate 56 through an air pipe 30. From the viewpoint of the nature of the laminated combustible material, penetration of the air is not expectable too much, whereby an electromagnetic valve 118 is opened following energization of a blower 106, the fed air flows to an air feed unit 92, is branched by passages 98, 100 and 102, and is injected in a furnace 16 through a nozzle part 104. Finally, with the aid of the air from the air feed unit 92, a combustible material is burnt without being influenced by any obstacle factor.
    • 目的:通过控制供气管的通电顺序,控制点火和燃烧物质燃烧状态,并通常获得恒定的热量。 构成:在封闭的壳体14,炉16和旋风装置18之间设置有空间19,并且通过引入口20填充有水。此后,可燃材料通过燃烧材料装入第一燃烧室40 充气入口46.通过鼓风机72引导到位于上部的点火可燃材料的空气通过空气管30从鼓风板56排出到炉16中。从性质的观点来看, 层叠的可燃物质,空气的渗透不能期待太多,由此在鼓风机106通电之后电磁阀118打开,供给的空气流到空气供给单元92,由通道98,100和102分支, 并通过喷嘴部分104注入炉16中。最后,借助于空气供给单元92的空气,可燃材料被燃烧而不受任何障碍因素的影响。
    • 9. 发明专利
    • Fluidized-bed combustion device
    • 流化床燃烧装置
    • JPS59210204A
    • 1984-11-28
    • JP8347483
    • 1983-05-14
    • Babcock Hitachi Kk
    • OOTANI YOSHINORIOOKI KATSUYAFUJIWARA NAOKI
    • B04C5/04B04C5/103F23C10/02F23C10/18F23J15/02
    • F23J15/027
    • PURPOSE:To prevent heating tubes from being eroded and contrive to enhance the combustion efficiency by a structure wherein a veriable type duct collector is realized by arranging turning blades in a cyclone dust collector. CONSTITUTION:When combustion gas containing ashes to be caught therein is supplied from a gas inlet pipe 21, the combustion gas together with the ashes is given swirling force by means of turning blades 17, resulting in separating the ashes to be caught from the combustion gas so as to lead through a conical part 22 to a recovery port 24 of the ashes to be caught. On the other hand, the resultant comparatively clean combustion gas is led through a central gas outlet pipe 23 to a dust collecting process. In such a structure as mentioned above, the dust collecting efficiency is made variable by changing the inclination of the turning blades 17 through the stationarily turning of driving shafts 20, which is caused by shifting a coupling belt 18 with the turning of a motor 19. The change of the inclination angle of the turning blades 17 in response to kinds of coals enables to prevent heating tubes from being eroded and to select recycle rate at will, resulting in enhancing the combustion efficiency.
    • 目的:为了防止加热管受到侵蚀和设计,通过一种结构提高燃烧效率,其中通过将旋转刀片设置在旋风除尘器中来实现可验证型管道收集器。 构成:当从气体入口管21供给含有要夹在其中的灰分的燃烧气体时,燃烧气体与灰分一起通过转动叶片17产生旋转力,从而将灰尘与燃烧气体分离 以便将圆锥形部分22引导到被捕获的灰烬的回收口24。 另一方面,所得到的相对清洁的燃烧气体通过中央气体出口管23被引导到集尘过程。 在这样的结构中,通过通过马达19的转动使联接带18移动引起的驱动轴20的静止转动来改变转动叶片17的倾斜,从而使粉尘收集效率变化。 根据煤的种类,转动叶片17的倾斜角度的变化能够防止加热管被侵蚀,并随意选择再循环率,从而提高燃烧效率。
    • 10. 发明专利
    • Powder feeding device
    • 粉末送料装置
    • JPS59147928A
    • 1984-08-24
    • JP1895283
    • 1983-02-09
    • Mitsubishi Heavy Ind Ltd
    • TAKAHASHI SEIICHI
    • B65G53/40F23J3/06F23J15/02F23K3/02
    • F23J3/06F23J15/027
    • PURPOSE:To obtain a powder feeding device, the installation space of which is reduced and which enables to measure unburnt matter, by a method wherein a measuring hopper is arranged at the latter stage of a cyclone. CONSTITUTION:Unburnt matter 10 in combustion gas 9 is recovered at a cyclone 1 and stored in a measuring hopper 3 and the heaped level of the unburnt matter 10 in the hopper 3 is detected by level meters 4' and 4''. A sluice valve 2 is kept open until the level of the unburnt matter 10 reaches a higher level in the measuring hopper 3, while a rotary valve 5 is in a standstill. After the level of the unburnt matter 10 reaches the higher level, a valve 7 is open in order to flow carrier air 11 in a branch pipe 6. Next, the sluice valve 2 is closed and the rotary valve 5 is put into actuation so as to feed to unburnt matter 10 out of the hopper 3 into the branch pipe 6 in order to transport the unburnt matter 10 to the site of destination by means of the carrier air 11. After the level of the unburnt matter 10 in the hopper 3 reaches a lower level, the rotary valve 5 is stopped, the sluice valve 2 is open, and the valve 7 is closed. The controlling of the actions of said valves 5, 2 and 7 by means of a controller 8 makes the efficient use of carrier air 11 by communicating the same single transportation pipe 12 to a plyrality of cyclones 1 possible.
    • 目的:为了获得粉末进料装置,其安装空间减少,并且能够通过其中在旋风分离器后期配置测量料斗的方法测量未燃料。 构成:在旋风分离器1中回收燃烧气体9中的未燃烧物质10,并储存在计量料斗3中,料斗3中的未燃料10的堆积水平由液位计4'和4“检测。 止回阀2保持打开,直到未燃料10的水位在计量料斗3中达到较高水平,同时旋转阀5处于静止状态。 在未燃料10的水位达到较高水平之后,阀7打开,以便在分支管6中流动载气11.接下来,闸阀2关闭,旋转阀5被启动,以便 将未加料物质10从料斗3中进料到分支管6中,以便通过载气11将未燃料10运送到目的地。在料斗3中的未燃料10的水位达到 较低水平,旋转阀5停止,闸阀2打开,阀7关闭。 通过控制器8控制所述阀门5,2和7的动作,通过将相同的单个输送管道12连通到可能的旋风分离器1的浆液,可有效地利用载气11。